KR20100089208A - Conductor magnetic field measurment apparatus - Google Patents

Abstract

PURPOSE: A device for measuring the magnetic field of a conductor is provided to accurately obtain the magnetic field by controlling the length of the conductor between the opening point of the conductor and the measuring point of the magnetic field within a reference length range. CONSTITUTION: A magnetic field measuring unit(300) senses the magnetic field formed around a conductor and outputs an electric signal in proportion to the magnitude of the sensed magnetic field. A signal processor(400) receives the electric signal outputted from the magnetic field measuring unit and obtains the magnetic field corresponding to the inputted electric signal. A conductor storage unit(500) controls the length of the conductor between the opening point(10) of the conductor and the measuring point(20) of the magnetic field within the reference length range.

Description

Conductor magnetic field measuring device {Conductor Magnetic field Measurment Apparatus}

The present invention relates to an apparatus for measuring a magnetic field of a conductor, and in particular, to induce a current in a conductor implemented in the form of an open circuit, and to measure a magnetic field formed around the conductor by the flow of the induced current. It is about.

In general, a conductor existing in a predetermined magnetic field induces a current based on an induced electromotive force generated by a predetermined magnetic field surrounding the magnetic field, and forms a magnetic field by itself. At this time, the size of the magnetic field formed in the conductor itself is inversely proportional to the distance away from the conductor.

Recently, technologies for checking the state of wires using the characteristics of the conductors have been developed in the manufacture of wires.

That is, in the case of manufacturing an electric wire by coating an insulator on a conductor through a Catenary Continuous Vulcabizing (CCV), the electric current is induced around the electric conductor inside the electric wire in the bridged tube and is formed around the electric wire by an induced current. After measuring a magnetic field through a magnetic field sensor, a technique for converting a magnetic field measurement into a distance between a magnetic field sensor and an electric wire and confirming the position of an electric wire existing in a bridged pipe has been developed.

In addition, when measuring the eccentricity of the inner conductor of the wire using an eccentric measuring device, after measuring the outer diameter of the wire optically, the magnetic field formed around the wire by the induced current by inducing current to the inner conductor of the wire through the magnetic field sensor The magnetic field measurement is converted into the distance between the magnetic field sensor and the center of the wire to calculate the center position value of the wire, and the insulator that forms the wire using the calculated center position value, the previously measured eccentricity of the insulator and the outer diameter of the wire. Techniques for calculating the eccentricity of conductors have been developed.

In addition, by inducing a large current to the conductor inside the wire and measuring the magnetic field formed around the wire by the induced high current through the magnetic field sensor, and converting the magnitude of the large current by using the measured magnetic field measurement to measure the insulation characteristics of the wire Identification techniques are being developed.

On the other hand, in order to accurately check the state of the wire using the technique described above, it is important to obtain an accurate measurement of the magnetic field generated around the wire through which the induced current flows. It must be implemented in the form of a closed loop.

This is because when the shape of the conductor is implemented in the form of an open circuit, the induced electromotive force generated by the external magnetic field is not generated in a constant magnitude throughout the conductor, so that the induced current flowing through the conductor is limited by the standing wave phenomenon. This is because the magnitude of the induced current flowing for each position along the longitudinal direction of the conductor varies. In particular, the closer to the open point corresponding to both ends of the conductor, the smaller the induced current.

However, in practical applications, such as in the manufacture of wires using inclined cross-linked pipes, it is virtually impossible to implement the wires in a closed circuit by grounding both ends of the conductors inside the wires. must do it.

Therefore, when the distance between the opening point of the conductor and the magnetic field sensor is close, the magnetic field formed near the opening point of the conductor is very small, and it is difficult to obtain the magnetic field measurement through the magnetic field sensor, even if the magnetic field measurement is obtained. Since the size of the measurement is very small, the signal-to-noise ratio characteristic is poor, such as being influenced by external noise, and thus, it is difficult to accurately measure the magnetic field.

The present invention has been made to solve the above problems, by adjusting the length of the conductor between the open point of the conductor implemented in the form of an open circuit and the magnetic field measurement point within the reference length range, even if the closed circuit of the conductor is difficult to induce a current SUMMARY OF THE INVENTION An object of the present invention is to provide a magnetic field measuring device of a conductor that enables to obtain accurate magnetic field measurements when measuring magnetic fields formed around the conductor by the flow of.

Device for measuring the magnetic field of a conductor according to an embodiment of the present invention for achieving the above object, the current inducing unit for inducing a current in the conductor implemented in the form of an open circuit; A magnetic field measuring unit which detects a magnetic field formed around the conductor and outputs an electrical signal proportional to the magnitude of the detected magnetic field; A signal processor which receives an electrical signal output from the magnetic field measuring unit and obtains a magnetic field measurement value corresponding to the input electrical signal; It is preferable to include a conductor storage unit for adjusting the conductor length between the opening point of the conductor and the magnetic field measurement point on the conductor measured by the magnetic field measurement unit within the reference length range.

Here, the current induction unit and a signal generator for generating an alternating current having a frequency for electromagnetic induction; An amplifier for amplifying an alternating current generated from the signal generator and outputting a large current; It is preferable to include a transformer for forming a magnetic field using the large current output through the amplifier and generating an induced electromotive force to the conductor to induce a current to the conductor.

The conductor storage unit may include: at least one bobbin rotating and unwinding or winding the conductor to adjust a conductor length between an open point of the conductor and a magnetic field measurement point measured by the magnetic field measurement unit within a reference length range; It is preferable to include a bobbin drive controller for controlling the rotational drive of the bobbin.

The bobbin drive controller is configured to store information on the degree of conductor length change between the opening point of the conductor and the magnetic field measurement point on the conductor, which are changed in accordance with the rotation of the bobbin, and the information on the reference length range. It is desirable to control the rotational drive of the bobbin based on the stored information.

The reference length range is preferably within 10% to 40% of the wavelength with respect to the frequency of the induced current flowing in the conductor.

According to the magnetic field measuring device of the conductor according to the present invention, by adjusting the length of the conductor between the open point and the magnetic field measurement point of the conductor implemented in the form of an open circuit within the reference length range, even if the closed circuit of the conductor is difficult to be caused by the flow of induced current When measuring the magnetic field formed around the conductor has the effect of obtaining accurate magnetic field measurements.

Hereinafter, with reference to the accompanying drawings will be described in more detail with respect to the magnetic field measuring apparatus of the conductor according to a preferred embodiment of the present invention.

1 is a view showing the configuration of a magnetic field measuring device of a conductor according to an embodiment of the present invention.

Referring to FIG. 1, the apparatus for measuring magnetic fields of a conductor according to the present invention senses and detects a magnetic field formed around the conductor 100 and the current inducing unit 200 for inducing a current in the conductor 100 implemented as an open circuit. The magnetic field measuring unit 300 outputs an electrical signal proportional to the magnitude of the magnetic field, and the signal processing unit 400 receiving an electrical signal output from the magnetic field measuring unit 300 and obtaining a magnetic field measurement value corresponding to the input electrical signal. And adjusting the conductor length between the open point 10 of the conductor 100 and the magnetic field measurement point 20 on the conductor 100 measured by the magnetic field measurement unit 300 within the reference length range by winding or unwinding the conductor 100. It comprises a conductor storage unit 500.

The current induction unit 200 is a signal generator 210 for generating an alternating current having a frequency for electromagnetic induction, an amplifier 220 for outputting a large current by amplifying the alternating current generated from the signal generator 210 and amplifier 220 It is preferable to include a transformer 230 for forming a magnetic field using the large current output through the to generate an induced electromotive force to the conductor 100 to induce a current to the conductor 100.

The magnetic field measuring unit 300 preferably includes a plurality of magnetic field sensors 310 geometrically arranged around the conductor 100.

The signal processor 400 may amplify the magnitude of the electric signal output from the magnetic field measuring unit 300 to obtain a magnetic field measurement value corresponding to the amplified electric signal.

Although not shown in the drawing, the conductor storage unit 500 may be rotated to loosen or wind the conductor 100 to measure the magnetic field measurement point 20 measured by the open point 10 and the magnetic field measurement unit 300 of the conductor 100. It is preferable to have at least one bobbin for adjusting the conductor length between the) within the reference length range, and a bobbin drive controller for controlling the rotational drive of the bobbin.

The bobbin drive controller reads information on the degree of change in conductor length between the open point 10 of the conductor 100 and the magnetic field measurement point 20 on the conductor 100 and the reference length range which changes with the rotation of the bobbin. And controlling the rotational drive of the bobbin based on previously stored information to adjust the conductor length between the open point 10 of the conductor 100 and the magnetic field measurement point 20 on the conductor 100 within a reference length range. desirable.

On the other hand, Equation 1 below is an equation for calculating the magnitude of the induced current flowing for each specific point on the conductor 100 implemented in the form of an open circuit.

('z' is the conductor length from the open point of the conductor, 'λ' is the wavelength relative to the frequency of the induced current, and 'I ₀ ' is the maximum value of the induced current)

FIG. 2 is a diagram illustrating a standing wave form of an induced current flowing in a conductor 100 implemented in an open circuit form based on Equation 1, and according to FIG. 2, the conductor 100 implemented in an open circuit form. The magnitude of the induction current at the open point 10 of the () is '0' and the larger the distance away from the open point 10, but if the conductor length from the open point 10 is more than half wavelength (0.25λ) Will decrease again.

Accordingly, the conductor length between the open point 10 of the conductor 100 and the magnetic field measurement point 20 on the conductor 100, which minimizes the lengthy waste of the conductor and at the same time obtains optimum magnetic field measurements, is the induced current. It can be seen that 25% of the wavelength 'λ' with respect to the frequency of is optimal, that is, 0.25λ, and the magnetic field measurement on the conductor 100 and the open point 10 of the conductor 100 from which the magnetic field measurement can be obtained. It can be seen that the conductor length between the points 20 should correspond at least within 10% to 40% of the wavelength 'λ' with respect to the frequency of the induced current, ie 0.1λ to 0.4λ.

Therefore, the bobbin drive controller pre-stores information on a reference length range within 10% to 40% of the wavelength 'λ' with respect to the frequency of the induced current flowing through the conductor 100, that is, within 0.1λ to 0.4λ. It is preferable.

The magnetic field measuring device of the conductor according to the present invention is not limited to the above-described embodiment and can be variously modified and implemented within the range permitted by the technical idea of the present invention.

According to the magnetic field measuring device of the conductor according to the present invention, by adjusting the length of the conductor between the open point and the magnetic field measurement point of the conductor implemented in the form of an open circuit within the reference length range, even if the closed circuit of the conductor is difficult to be caused by the flow of induced current Accurate magnetic field measurements can be obtained when measuring magnetic fields formed around conductors.

1 is a view showing the configuration of a magnetic field measuring device of a conductor according to an embodiment of the present invention.

Figure 2 is a diagram showing the standing wave form of the induced current flowing in the conductor implemented in the form of an open circuit according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10: opening point 20: magnetic field measuring point

100: conductor 200: current induction part

210: signal generator 220: amplifier

230: transformer 300: magnetic field measuring unit

310: magnetic field sensor 400: signal processing unit

500: conductor storage

Claims (5)

A current inducing unit for inducing current in the conductor implemented in the form of an open circuit; A magnetic field measuring unit which detects a magnetic field formed around the conductor and outputs an electrical signal proportional to the magnitude of the detected magnetic field; A signal processor which receives an electrical signal output from the magnetic field measuring unit and obtains a magnetic field measurement value corresponding to the input electrical signal; And a conductor storage unit configured to adjust the conductor length between the opening point of the conductor and the magnetic field measurement point on the conductor measured by the magnetic field measurement unit within a reference length range. The method of claim 1, The current inducing unit is a signal generator for generating an alternating current having a frequency for electromagnetic induction; An amplifier for amplifying an alternating current generated from the signal generator and outputting a large current; And a transformer for forming a magnetic field using the large current output through the amplifier and generating an induced electromotive force to the conductor to induce a current to the conductor. The method of claim 1, The conductor storage unit, At least one bobbin for rotating or unwinding and winding the conductor to adjust the conductor length between the opening point of the conductor and the magnetic field measurement point measured by the magnetic field measurement unit within a reference length range; And a bobbin drive controller for controlling the rotational drive of the bobbin. The method of claim 3, The bobbin drive controller, The information on the degree of conductor length change and the reference length range between the opening point of the conductor and the magnetic field measurement point on the conductor, which are changed according to the rotation of the bobbin, are stored in advance. A magnetic field measuring device for a conductor, characterized in that for controlling rotational drive. The method according to any one of claims 1 to 4, The reference length range is, The magnetic field measuring device of the conductor, characterized in that within 10% to 40% of the wavelength with respect to the frequency of the induced current flowing through the conductor.

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